具有高门电平相关性的rt级故障模型

Proceedings IEEE International High-Level Design Validation and Test Workshop (Cat. No.PR00786) Pub Date : 2000-11-08 DOI:10.1109/HLDVT.2000.889551

Fulvio Corno, G. Cumani, M. Reorda, Giovanni Squillero

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引用次数: 42

摘要

随着新的实时级设计和测试流的出现，需要新的工具将故障模拟、可测试性分析和测试模式生成等活动迁移到实时级。本文主要研究rt级的故障仿真，旨在利用VHDL仿真器计算故障响应的能力。实验结果表明，模拟故障电路的成本并不比模拟原始电路的成本高。由于对固有VHDL冗余的分析和对经典综合优化的预见，在rt级计算的故障覆盖数字的可靠性得到了提高。一组“规则”用于计算故障列表，该列表与卡在故障之间表现出良好的相关性。

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An RT-level fault model with high gate level correlation

With the advent of new RT-level design and test flows, new tools are needed to migrate at the RT-level the activities of fault simulation testability analysis, and test pattern generation. This paper focuses on fault simulation at the RT-level, and aims at exploiting the capabilities of VHDL simulators to compute faulty responses. The simulator was implemented as a phototypical tool, and experimental results show that simulation of a faulty circuit is no more costly than simulation of the original circuit. The reliability of the fault coverage figures computed at the RT-level is increased thanks to an analysis of inherent VHDL redundancies, and by foreseeing classical synthesis optimizations. A set of "rules" is used to compute a fault list that exhibits good correlation with stuck-at faults.

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Proceedings IEEE International High-Level Design Validation and Test Workshop (Cat. No.PR00786)

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